KR100698841B1 - Apparatus with roof tile type photovoltaic module - Google Patents

Abstract

The present invention is to provide a tiled solar cell apparatus that can protect the solar cell inside the body of the transparent material as a simple integrated structure, easy to clean and maintain, maintaining a solid connection state.

The tiled photovoltaic device of the present invention has a shape extending from a ridge shape to a valley shape through a connection shape formed flexibly, and in turn, a transparent first molding material 111 and a first EVA 112 (EVA). And a base body composed of a plurality of layer layers including the flexible solar cell 12, the second EVA 114, and the transparent second molding material 115, and laminated and bonded horizontally by a laminating method by melt press processing. Main bodies (10, 10 ', 100) having a tile shape; In the physical tiling arrangement of the main body, it is easy to include a plurality of female, male connectors 13, 14, 130, 140 electrically coupled to the solar cell and integrally fixed to the main body for electrical direct, parallel coupling. The solar power generation system can be easily constructed.

Sunlight, roof tile, junction, one-piece

Description

Tiled Solar Power Unit {APPARATUS WITH ROOF TILE TYPE PHOTOVOLTAIC MODULE}

1 is a perspective view for explaining a solar power tile according to the prior art,

Figure 2 is a perspective view for explaining the main body of the tiled photovoltaic device according to an embodiment of the present invention,

3 is a cross-sectional view illustrating a coupling relationship of a main body cut along a line A-A shown in FIG. 2;

4 is a cross-sectional view for explaining the assembly relationship between the main body shown in FIG.

5 is a cross-sectional view for explaining a coupling relationship according to a modification of the main body shown in FIG. 2;

6 is a cross-sectional view for explaining the assembly relationship between the main body shown in FIG.

7 is a perspective view for explaining another modified example of the main body shown in FIG. 2;

FIG. 8 is a cross-sectional view illustrating a coupling relationship of a body cut along a line B-B shown in FIG. 7;

9 is a schematic view for explaining a first manufacturing device for the base of the tile-type photovoltaic device according to the present invention,

FIG. 10 is a schematic view for explaining a second manufacturing apparatus for producing a main body by melt press working using the basic body manufactured by the first manufacturing apparatus of FIG. 9;

11 is a conceptual diagram illustrating the electrical coupling relationship of the tiled photovoltaic device of the present invention;

12 is a block diagram illustrating a method of manufacturing a tiled photovoltaic device of the present invention;

Figure 13 is a block diagram illustrating a method of assembling the tiled photovoltaic device of the present invention.

           <Description of the symbols for the main parts of the drawings>

10, 10 ', 100: main body 11: transparent area

12: flexible solar cell 13, 14, 130, 140: connection port

111: first molding material 112: first EVA

114: second EVA 115: second molding material

131, 141: fixed jaw 150: shock absorbing member

200: first manufacturing apparatus 300: basic body

400: second manufacturing apparatus 500: current collector

The present invention relates to a tiled photovoltaic device and method, and more particularly, to a tiled photovoltaic device configured to perform photovoltaic power generation by installing a plurality of tiled bodies formed in the same shape on the roof. .

In general, photovoltaic power generation means concentrating (heating) solar light on a solar cell or a photovoltaic module to perform power generation.

The solar module is called a solar module as a kind of solar panel, and there are a general type, a window type, a tracking type, and a hybrid type (type in parallel with other clean energy generating means).

The principle of photovoltaic using the photovoltaic module is carried out by the photovoltaic effect. When solar light is irradiated to a pn junction solar farm with n-type doping on a silicon crystal, Electromotive force by electron-holes is generated by light energy, which is called photovoltaic effect. The solar panels can be connected to each other directly and in parallel to make the desired electric power. The system stored in the battery and used as needed is called individual solar power system or stand-alone solar power system. It is called grid-connected solar power system. In particular, the DC power stored in the battery is converted into AC power through an inverter device and then supplied to a power consuming device such as a lamp.

The solar cell tile according to the prior art is coupled to the tile body 3 having a plurality of protrusion coupling portions (1a, 1b) and the protrusion coupling portions (1a, 1b), respectively, as shown in FIG. It consists of a plate-shaped solar cell (2) having a coupling end to be formed, the bent portion (6) formed on one side of the tile body (3) and the other bent portion (7) on the other side and different from the bent portion (6) The extension part 8 is formed between the bent parts 7, and the solar cell 2 is coupled in a detachable state from the tile body 3 while maintaining an empty space near the extension part 8. It is characterized by being.

However, the conventional photovoltaic tile is manufactured in a type in which the tile body and the solar cell are separately separated, which is not only inconvenient to assemble, but also separate connection wires and terminals for electrical direct and parallel connection between the solar cells. 5), the tile body has a problem in construction due to the double installation work, as the roof body and the laminated construction, such as after the construction, to perform additional electrical connection between the separate cells.

For example, a typical roof solar power tile, such as a separate rack (rack) or a cable connection structure for the electrical connection between the solar cells of the tile, or more requires a cable and its fixtures, etc. Higher work is essential, depending on the characteristics of the roof, making the work more dangerous and difficult.

In addition, the solar power tile according to the prior art has a coupling structure for laying the solar cell with a plurality of protrusion coupling portion on the upper surface of the tile body, foreign matters accumulated on the roof, waste, etc., the protrusion coupling portion of the solar cell and the power generation tile There is a disadvantage in that the accumulation and mess between, cleaning and maintenance is very inconvenient as the protruding part is exposed on the upper surface.

In addition, the solar power tile according to the prior art, except for the solar cell area made of an opaque material for the solar power generation, the tile body is made of an opaque material, the solar absorption rate is relatively high compared to the transparent material There is a disadvantage of falling, there is a disadvantage that can not be applied to the building that wants a translucent roof.

In addition, the photovoltaic tile according to the prior art has a simple tile laminated structure in which the bent portion of one tile body is covered in the bent portion of another tile body in contact with it, when installed in a roof, etc. There is a disadvantage that it is impossible to maintain a solid installation by the absence of the fixing means.

Accordingly, an object of the present invention for solving the above-mentioned problems is to install the main body of a separate type solar structure or a tile-type photovoltaic device without a connection cable or physical connection and at the same time the electrical connection is possible It is to provide a tiled photovoltaic device that is easy to work, can be protected from the inside of the transparent body as a simple integrated structure, easy to clean and maintain, and maintain a solid connection state.

In addition, another object of the present invention is to provide a tiled photovoltaic device that can easily produce a tile-shaped transparent structure having a flexible solar cell integrally by melt press processing.

In addition, another object of the present invention is to provide a tiled photovoltaic device that can complete the solar module assembly by tiling the tiled photovoltaic device manufactured by melt press processing on the roof. do.

One of the objectives of the present invention as described above is a tiled photovoltaic module device having a shape extending from a ridge shape to a valley shape through a connection shape that is flexibly formed, in which a transparent first molding material, a first eva, A main body composed of a plurality of layer layers including a flexible solar cell, a second eva, and a transparent second molding material, and having a tile shape formed by melt pressing for horizontally laminating and joining the base body by a laminating method; In the physical tile arrangement of the main body, a tiled solar module device comprising a plurality of female, male connectors electrically coupled to the solar cell and integrally fixed to the main body for electrical coupling, parallel coupling Is achieved.

In addition, another one of the objects of the present invention is a transparent first molding member, the first eva, arm, which is sequentially disposed between the laminating pressing table by a first manufacturing apparatus having a laminating pressing table having a pair of horizontal pressing surface And laminating the flexible solar cell, the second EVA, and the transparent second molding material in a horizontal state, wherein the male solar cell is electrically connected to the male connector; It is achieved by a tiled photovoltaic module device, characterized in that it comprises a main body manufacturing steps of completing the main body from the base by placing and melting the finished base body between the molten press of the second manufacturing apparatus.

In addition, the present invention arranges the main body in the form of a conventional tile arrangement on the roof, and at the same time physically and electrically coupled the female and male connectors; Coupling the female and male connectors of the extension wires to the female and male connectors of the main body coupled as described above in a plug-and-socket manner; Electrically coupling an end of an extension wire located opposite the female and male connectors to an input end of a current collector; It is a tiled photovoltaic device that is constructed by performing other construction work required for a conventional electrical device photovoltaic system related to the current collector.

In addition, the simple one-piece structure of the present invention is a transparent material that is melt-pressed to wrap the solar cell while being formed in an integral form, it is a monolithic, male, male connector that can bind to the transparent body of the built-in cell in the plug-socket method Is provided integrally, it means a structure in which the main body of the present invention is physically and electrically coupled to each other and energized when constructed according to a method of installing a plurality of conventional roof tiles on a roof according to a predetermined arrangement.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 2 to 13.

2 is a perspective view illustrating a main body of a tiled photovoltaic device according to an embodiment of the present invention, and FIG. 3 illustrates a coupling relationship of a main body cut along a line AA shown in FIG. 2. 4 is a cross-sectional view for explaining the assembly relationship between the main bodies shown in FIG. 5 is a cross-sectional view illustrating a coupling relationship according to a modification of the main body shown in FIG. 2, and FIG. 6 is a cross-sectional view illustrating an assembly relationship between the main bodies shown in FIG. 5. 7 is a perspective view illustrating another modified example of the main body shown in FIG. 2, and FIG. 8 is a cross-sectional view illustrating a coupling relationship of the main body cut along the line B-B shown in FIG. 7. In addition, Figure 9 is a schematic diagram for explaining a first manufacturing device for the base of the tiled photovoltaic device according to the present invention, Figure 10 is a melt press using the base manufactured by the first manufacturing device of FIG. It is a schematic diagram for demonstrating the 2nd manufacturing apparatus which manufactures a main body by a process. In addition, Figure 11 is a conceptual diagram for explaining the electrical coupling relationship of the tiled photovoltaic device of the present invention, Figure 12 is a block diagram for explaining the manufacturing method of the tiled photovoltaic device of the present invention, Figure 13 Is a block diagram illustrating a method of assembling a tiled photovoltaic device of the present invention.

First, as shown in FIG. 2, the tiled photovoltaic device of the present invention has a plurality of main bodies 10 which are present in plural and are coupled to the top of the roof when installed in the roof corresponding to a conventional tile arrangement.

The tiled photovoltaic device of the present invention may be provided as a photovoltaic power generation system including a plurality of main bodies 10 installed on a roof, and an assembly arrangement structure and other devices required for power storage.

Each main body 10 of the present invention is to be in a state capable of electrically conducting each other when arranged on the roof like a conventional tile even without a separate wiring construction.

The main body 10 includes a transparent region 11 as an 'S' cross-sectional shape, and a solar cell 12 integrally provided inside the transparent region 11.

The transparent region 11 is integrally provided with the female and male connectors 13 and 14 electrically connected to the solar cell 12 and the solar cell 12 by a manufacturing apparatus and a manufacturing method which will be described below.

The male and female connectors 13 and 14 are arranged at mutually overlapping portions of the transparent region 11 with a pair of anodes, such as positive polarity and negative polarity.

For example, in the main body 10, the pair of female connectors 13 are arranged to be aligned on an imaginary straight line while maintaining a predetermined interval on the upper surface of one side end of the transparent region 11, and the pair of male connectors 13 is It is preferable to arrange | position each on the perpendicular | vertical line of the said female connection port 13 on the lower surface of the other end of the transparent area | region 11 respectively.

In FIG. 2, when the main body 10 is stacked on the roof in the horizontal and vertical directions and the side ends of the main body 10 are stacked, the female and male connectors 13 and 14 are aligned and fixed in the thickness direction of the main body 10 in the vertical direction. As described above, the electrical connection is realized at the same time as the physical tile and arrangement of the main body 10.

The solar cell 12 is bent in a sheet shape, and is manufactured to be bendable by being flexible so as to change incident sunlight into electrical energy corresponding to a predetermined ratio or capacity. In the present invention, as the solar cell 12, a conventional flexible solar cell product (eg, ASI THRU, ASI OPAK, etc., product name of ASI Glas, Germany) may be used.

Cell terminals corresponding to plus or minus polarity are provided to supply the electricity (power) generated by the solar cell 12 to the female and male connectors 13 and 14, and each of the cell terminals has a wire, a flexible board, a cable, and the like. One end of the same electrical connection means is connected, and the other end of the electrical connection means is electrically connected to the internal connection tabs of the respective male and male connectors 13 and 14, respectively.

Types of internal connection tabs include ring connection tabs and bar connection tabs.

For example, the female connector 13 has a ring connection tab, and the male connector 14 has a bar connection tab having a thickness that is inserted into the ring connection tab in a plug-socket manner so as to be in contact with each other.

 As shown in FIG. 3, the female connector 13 includes an exterior member 13b surrounding the ring connecting tab 13a on the basis of an axis, and is partially provided on one side of the main body 10 by the exterior member 13b. It is planted in a planted state. This female connector 13 allows its ring connecting tab 13a to be electrically energized with one cell terminal 12a of the solar cell 12 via its electrical connection means (eg, wire, flexible board, wire, etc.). Are combined.

In the same manner as above, the male connector 14 includes an exterior member 14b enclosing the base of the bar connection tab 14a that can be inserted into the ring connection tab 13a on the basis of an axis, and by such an exterior member 14b. It is erected in a state that is partially planted on the other lower surface of the main body 10. This male connector 14 couples the bar connection tab 14a to the other cell terminal 12b of the solar cell 12 through an electrical connection means thereof (for example, wires, flexible boards, wires, etc.). It is.

The transparent region 11 realizes the shape of the main body 10 such as a tile shape while integrally wrapping the planted portions of the female and male connectors 13 and 14 and the solar cell 12.

As shown in Fig. 4, in the main bodies 10 and 10 ', which are arranged to be stacked with each other to be connected to each other, the male connector 14 of one main body 10 is a female of the other main body 10'. In the state of being superimposed on the connector 13, the bar connection tab 14a is inserted into the inner diameter of the ring connection tab 13a in an airtight manner and becomes a state in which electricity can be supplied by surface contact.

In the present invention, as shown in Figs. 3 and 4, a separate water milling 17 is further interposed between the female connection port 13 and the male connection port 14 overlapping each other, so that moisture, rain, snow, moisture It is preferable to provide a close contact surface such that sparks and the like are not generated at the contact portion between the bar connection tab 14a and the ring connection tab 13a and the like, so that their electrical conduction state can be safely maintained.

The water milling ring 17 is preferably formed to have an outer diameter corresponding to the layout of the exterior materials 13b and 14b of the female and male couplers 13 and 14 and an inner diameter corresponding to the diameter of the bar connecting tab 14a. It is preferable that it is fitted to the bar connecting tab 14a of the male coupler 14 or adhered to the outer end surface of the ring connecting tab 13a of the female coupler 13 in close contact.

As shown in Figure 5 and 6, the female, male connector 130, 140 corresponding to a modified example of the present invention can be smoothly bound by mutual inertia can be maintained in a fixed state, so that the end end is connected It is preferable to have any one of female and male fixing jaws 131 and 141 so that the fixed state between the bodies 10 stacked between the two is firmly maintained.

In this case, since the plurality of bodies 10 as the assembly have the bearing force by the female and male fixing jaws 131 and 141 together with the frictional force due to the surface contact between the bar connecting tab 14a and the ring connecting tab 13a. When the roof is installed, it is possible to maintain a firm coupling state.

As shown in FIG. 7, the body 100 according to another modified example has one female upper end or the other end of the transparent region 11 of the tile shape having a pair of female and male connectors 130 and 140 in a horizontal direction. It may be fixed to any one of the lower surfaces.

In this case, the body 100 may be stacked on the roof in the horizontal and vertical directions so that the side edges which are connected to each other may be stacked, and the valley shape 101 may be inclined from the shape 103 and cross the inclined and flexible connection shape 102. It has the traditional tile shape of Korea which extends to).

Since the main body 100 has the corresponding female and male connectors 130 and 140 coincident and bound in the thickness direction of the main body 100 in the horizontal direction, the physical tiling arrangement of the main body 100 as described above. Electrical connection is achieved at the same time.

As shown in the cross-sectional view and the enlarged circle of FIG. 8, the main body 100 has a ridge shape corresponding to the aforementioned tile shape such that the thickness of the entire overlapping portion is constant even if the side ends connected in a tile form are stacked or overlapped. ) Has a shape that extends from the connection shape 102, which is formed flexibly, to the valley shape 101, and has the female and male connectors 130 and 140 described above.

At this time, the main body 100 is a contact between the transparent region 11 made of glass or transparent material and the surface of the roof and the surface of the support (not shown) or other structure, the physical body 100 by this contact In order to prevent damage or damage, the shock absorbing member 150 is preferably further provided on the bottom face of the valley shape 101 of the main body 100.

The shock absorbing member 150 has a shape structure such as a hemispherical shape, a disk shape, a strip line shape, and the like, which can be in contact with any one of point contact, line contact, and surface contact, and the mount of the body 100 by the adhesive 151. The bottom surface of the valley shape 101 may be attached.

Of course, the shock absorbing member 150 further includes an extension portion 152 integrally molded from the female connector 130, and as such an extension portion 152 is seated in the through-hole coupling portion of the transparent region 11. The female connector 130 may be manufactured to be integrally formed.

Of course, unlike the drawings corresponding to the embodiment of the present invention, the male connector 130 is fixed to the valley shape 101 side of the main body 100, the female connector 140 is fixed to the ridge shape 103 side In this case, the shock absorbing member 150 may be formed integrally with the male connector 140.

That is, the shock absorbing member 150 may be integrally formed to the base portion of the female connector 130 or the male connector 140 through the extension portion 152 integrally.

Meanwhile, when the cross section of the main body 100 is enlarged and examined, the main body 100 is a transparent first molding member 111, a first EVA 112 (EVA), and a flexible solar cell (from the bottom to the top of the thickness direction) in order. 12) It is preferable that it consists of several layer layers containing the 2nd EVA 114 and the transparent 2nd molding material 115, and is laminated | stacked and joined by the laminating method.

Here, the transparent first molding material 111 is float glass, the first EVA 112 is a transparent adhesive used in Japan, Germany, etc., and the flexible solar cell 12 is Q-Cells. It can be a flexible solar cell product of any one of the company, SolarworldAG, Sunways, Ersol, RWE, and Suntech.

In addition, the second EVA 114 is also a transparent adhesive of the same material as the first EVA 112, and the transparent second molding member 115 is preferably a low iron tempered glass or a transparent engineering plastic material.

The main body 100 is a solar inside the main body 100 having the above-described cross-sectional shape and integrally transparent region 11 by the manufacturing method of the present invention corresponding to the melt press processing to be described in detail below. The cell 12 can be kept in the shape corresponding to the tile shape.

FIG. 9 shows the first manufacturing apparatus 200 for the melt press processing mentioned above, and FIG. 10 shows the second manufacturing apparatus 400.

The 1st manufacturing apparatus 200 is a flexible solar which electrically connects the transparent 1st molding material 111, the 1st Eva 112, the female, and the male connector 13, 14 from the bottom part to the upper part of the thickness direction one by one. It refers to a device for laminating the cell 12, the second EVA 114, and the transparent second molding material 115 in the thickness direction.

To this end, the first manufacturing apparatus 200 includes an actuator 201, a guide set (not shown), and a frame (not shown).

In addition, the first manufacturing apparatus 200 has a pair of laminating pressing tables 202 and 203 coupled to the actuator 201 and the guide set.

The laminating pressing tables 202 and 203 are reciprocally lifted and operated by the actuator 201 and the guide set, and have heating means (not shown, for example, heating wire, etc.) required for laminating.

The laminating pressing tables 202 and 203 are horizontally installed on the ground by the pedestal 204.

A hydraulic supply device 205 is provided inside the pedestal 204, and a plurality of hydraulic supply lines of the hydraulic supply device 205 are connected to the input / output port of the actuator 201, so that the piston of the actuator 201 is supplied when the hydraulic pressure is supplied. RAM corresponding to the axis can be extended.

In the first manufacturing apparatus 200, the end of the ram is coupled to the laminating presser 202, so that one laminating presser 202 can be mutually contacted or spaced toward the other laminating presser 203. It can reciprocate.

As the first manufacturing apparatus 200 uses heating of a heating wire connected to a power supply device (not shown), the transparent first molding member 111, which is sequentially disposed between the laminating pressing tables 202 and 203, 1 Laminating the flexible solar cell 12, the second EVA 114, and the transparent second molding material 115 which are electrically connected to the Eva 112, the female and the male connector 13, 14 in a horizontal state. Let's go.

At this time, the first molding member 111 and the second molding member 115 respectively form the through holes 111a and 115a corresponding to the arrangement positions of the female and male connectors 13 and 14, respectively. It is preferable that the connection ports 13 and 14 can be inserted.

In the same manner, the lamination pressers 202 and 203 also have the first and corresponding shapes of the female and male splices 13 and 14 so that the female and male splices 13 and 14 are not damaged by crimping during laminating. It is preferable that the second molding seating grooves 206 and 207 are formed.

The first manufacturing apparatus 200 completes the basic body 300 as shown in FIG. 10 after the laminating process.

Referring to FIG. 10, the base body 300 includes female and male connectors 13 and 14, respectively, between the molten pressing tables 402 and 403 having the tile-shaped pressing surface of the second manufacturing apparatus 400. Of the actuator 401 and the guide set coupled to the melt pressurization rods 402 and 403 having the tiled pressing surfaces arranged after being aligned with the corresponding third and fourth molded seating grooves 406 and 407. According to the crimping operation and the heating operation of the melt heater 408, the aforementioned tile-shaped body (see reference numeral 10 in FIG. 2, reference numeral 10 ′ in FIG. 4, reference numeral 100 in FIG. 7, etc.) is manufactured.

That is, the second manufacturing apparatus 400 is a device for melting the laminated base body 300 and then pressing it into the tile-shaped body. The laminated first molding member 111, the first and second eva 112, 114 and the second molding member 115 are melted by the heating of the melting heater 408 to have a tile shape, among which the flexible solar cell 12 also has a tile shape of the first and second EVA 112, 114) will be embedded inside.

At this time, the outer material of the female and male connectors 13 and 14 connected to the solar cell 12 and inserted into the corresponding through holes 111a and 115a of the first and second molding members 111 and 115 is a molten first molding. The material 111 is hermetically fused by the ash 111, the first and second EVAs 112 and 114, and the second molding member 115 to be integrally formed with the main body.

To this end, the second manufacturing apparatus 400 includes a heater power control device 409 for supplying power to the molten heater 408 in a suitable place such as the inside of the pedestal 404, and the hydraulic supply device 405. The ram of the actuator 401 can be extended or shortened.

By the second manufacturing apparatus 400, the base body 300 is made of a main body having a tile shape, and then the post-treatment process such as laying the impact buffer member 150 and finishing the rim and polish treatment is performed.

As shown in FIG. 11, the main bodies 10 melt-molded in a tile shape from the basic body laminated by the second manufacturing apparatus are arranged and stacked in the roof structure as in the conventional tile laminated structure, and the corresponding arm, The male connectors 13 and 14 are connected in an energizable state, and the female and male connectors at both ends are connected to the female and male connectors 501 and 502 to output solar power. It is connected by inserting ring connection tab.

At this time, since the shock absorbing member 150 is in contact with the surface of the structure of the roof, the main body 10 can be safely supported on the structure of the roof. In addition, the female and male connectors 501 and 502 are electrically coupled to the input terminal of the current collector 500 through an extension wire, so that power from solar energy generated in the main bodies 10 may be transferred to a current collector such as a battery. It is systemically organized so that it can accumulate.

12, a method of manufacturing a tiled photovoltaic device of the present invention will be described.

First, the operator performs the step (S10) of electrically coupling the female, male connector to the flexible solar cell.

Thereafter, laminating and arranging the base components consisting of the transparent first molding material, the first EVA, the flexible solar cell, the second EVA, and the transparent second molding material between the laminating presses of the first manufacturing apparatus ( S11) is performed.

As the main body completion step (S12) of laminating the base component in accordance with the pressing of the laminating pressurization in the stacked arrangement state as described above, the female, male connector is laid and the solar cell is integrally integrated. The horizontal plate-shaped base body is completed.

Thereafter, the operator performs the basic body arrangement step (S13) of placing the base body between the molten pressurizer of the second manufacturing apparatus, and then heating the second manufacturing apparatus by operating the melt heater and the actuator to eventually heat it. And a melt press step (S14) of melting the base body between the press-fitted melt presses into a tile shape, and post-treatment processes, such as laying an impact buffer member, are integrally provided with female and male connectors. In the state, a main body completion step (S15) of completing a main body having a tile shape in which the solar cell is built is performed.

13, the assembly method of the tiled photovoltaic device of the present invention will be described.

The contractor arranges the bodies manufactured as described above in the form of a conventional tile arrangement on the roof, and simultaneously performs physical or electrical coupling between the corresponding female and male connectors.

Subsequently, the contractor performs the step S21 of coupling the female and male connectors of the extension wires to the female and male connectors of the main body disposed and coupled to the body that is first disposed, in a plug-socket manner. To be.

The contractor then performs the step (S22) of electrically coupling the ends of the extension wires located opposite the female and male connectors to the input terminal of the current collector.

Thereafter, the contractor completes the system installation through the step S23 (battery installation, regulator circuit installation, inverter installation process, etc.) of performing other construction work required for a conventional electric device photovoltaic power generation system related to the current collector.

According to the present invention configured as described above, a tile-type solar module device capable of quickly and effectively constructing a tiled photovoltaic power generation system on a roof according to the present invention is provided with a main body capable of electrical connection at the same time as the excretion of a tile in a plug-and-socket method. There is an effect provided.

In addition, the tiled photovoltaic module device of the present invention integrally encloses the solar cell integrally inside the transparent region of the main body, and integrally forms a part of the female and male connectors with a tile shape by a melt press. In addition, the female and male connectors may be used not only as an electric power supply means for the solar cell based on the main body, but also as a connecting means for maintaining the connection relationship between the main bodies when the main bodies are connected to the array.

In addition, the main body of the tiled photovoltaic module device of the present invention is provided with a corresponding female, male fixing jaw in the female, male connector, it can be bound by elasticity, there is an advantage that can maintain a solid fixed state after quick coupling.

In addition, since all parts except the solar cell, the female and the male connector are transparent, the tiled photovoltaic module device of the present invention can maintain high quality as internal and external materials, and is provided with an impact buffer member, so as to be in contact with the roof structure. Even there is no advantage such as damage.

In addition, the tiled photovoltaic module device of the present invention has an advantage of excellent electrical safety because more water-sealing is interposed between the contact portion of the female, male connector.

In addition, the manufacturing method of the tiled photovoltaic module device of the present invention overcomes the difficulty in streamlined processing due to the characteristics of glass material, and is equipped with a solar cell, a female and a male connector by a melt press after a horizontal laminating method. There is an advantage that can be mass-produced the main body having a streamlined tile shape naturally.

In addition, the assembly method of the tiled photovoltaic module device of the present invention is very easy and convenient assembly without the need for a separate electrical cord (cable) connection or pre-rack installation work, simply by arranging the roof as if the tiles are arranged. There is an advantage to complete the construction.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to various modifications, changes, additions, etc. within the spirit and scope of the present invention, these modifications and changes should be seen as belonging to the following claims something to do.

Claims (9)

The transparent first molding material 111, the first EVA 112, the flexible solar cell 12, the second EVA 114, and the transparent second molding material 115 are sequentially formed of a plurality of layer layers. In the tile-shaped solar module device having a shape of a base body 300 which is laminated and bonded horizontally by a horizontal, extending from the shape of the ridge to the shape of the valley past the flexible shape, Main bodies (10, 10 ', 100) having a tile shape by the melt press working; Female connectors (13,130) arranged with tiling of the main bodies (10, 10 ', 100) and having ring connection tabs (13a) so that the solels (12) are electrically coupled in parallel; A male connector 14 and 140 inserted into the ring connection tab 13a and having a bar connection tab 14a having a thickness capable of contacting surfaces; The female coupler 13 and 130 and the male coupler 14 and 140 are respectively surrounded by the exterior materials 13b and 14b on the basis of an axis of the transparent region 11 of the main body 10, 10 ′ and 100. Tile-type photovoltaic device, characterized in that fixed to one side upper surface or the other side integrally. delete delete The method of claim 1, The female coupler 13 and 130 and the male coupler 14 and 140 form one of a female and a male fixing jaw 131 and 141 to realize mutual elastic binding. Power generation device. The method of claim 1, Further to the bottom surface of the main body 10, 10 ', 100 is a shock-absorbing member 150 having a shape such as hemispherical, disk, strip line, etc., which can be any one of point contact, line contact, surface contact Tiled photovoltaic device, characterized in that provided. The method of claim 5, The shock absorbing member 150 mounts the extension portion 152 of the female connector 13, 130 or the male by seating the extension portion 152 on the through type coupling portion of the transparent region 11 of the main body 10, 10 ′, 100. Tile type solar module device, characterized in that formed integrally in any one of the connection port (14, 140). delete delete delete

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